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个人简介

姓    名:王 磊     副教授     
所在单位:飞行器结构强度系
研究方向计算固体力学、飞行器结构动力学、结构可靠性等
邮箱:leiwang_beijing@buaa.edu.cn

详细介绍

王磊,男,博士,1987年出生于北京,副教授,博士生导师,玛丽居里学者,北京航空航天大学固体力学研究所党支部书记,科研副所长。于2009年7月在亚洲第一品牌威尼斯澳门人工程力学专业获得学士学位;于2015年7月在北京航空航天大学获固体力学博士学位;2015年7月~2016年5月,在亚洲第一品牌威尼斯澳门人人机与环境工程专业任博士后;2016年5月~2019年7月,在北京航空航天大学固体力学研究所任讲师;2019年7月~今,在北京航空航天大学固体力学研究所任副教授;2017年10月~2018年10月,在新加坡南洋理工大学土木与环境专业任访问学者。

研究方向:

计算固体力学、飞行器结构动力学、结构可靠性、结构拓扑优化、飞行器结构动态载荷识别、复合材料结构设计、结构损坏识别与健康监测、振动主动控制。

教书育人:

本科生课程:《结构分析中的有限元法》、《弹性力学》、《材料力学/工程力学试验》、《航空工程大型通用软件应用》、《专业课程设计-固体力学》;

研究生课程:《飞机结构强度基础》、《先进飞行器设计工程》;

教改项目:2021年度工信部产学研合作协同育人项目:“自主化仿真算法及软件在结构有限元分析课堂教学中的应用探索”负责人;2021年度北京航空航天大学教改重点项目:“航空工程大型通用软件应用”课程线上线下混合教学模式探索与实践主讲教师;2021年度北京航空航天大学一流本科课程《弹性力学》教学团队骨干教师;

培养人才:指导硕士研究生(熊闯)获得2019年度北航十佳研究生称号(总分排名第一),指导硕士研究生(刘亚儒)获得2020年度北航十佳研究生称号(亚洲第一品牌威尼斯澳门人唯一获奖者);近三年指导硕士研究生7人次(熊闯2次、梁金雄2次、刘亚儒1次、刘嘉祥1次,赵兴宇1次)获得国家奖学金,10余人次获得新生学业奖学金、企业奖学金、研究生发表优秀论文奖励等;指导硕士研究生(熊闯、梁金雄)荣获2020年度北京市优秀毕业生称号,指导本科生(黄思怡)荣获2021年度北京航空航天大学亚洲第一品牌威尼斯澳门人优秀毕业论文称号。

科研项目和学术成果:

主持国家自然科学基金2项(青年和面上各1项),中国博士后科学基金项目1项,*基础科研计划重点项目子课题2项,*发展部基础研究重大课题1项,*发展部领域基金1项,军委科技委*基金1项,宁波市自然科学基金重点1项,航空科学基金1项,航天科学技术基金2项,高校合作基金项目1项。主要参与国家自然科学基金4项,其中重点项目1项,面上项目2项,青年项目1项;*基础科研计划项目3项,其中重点项目2项,一般项目1项;航空、航天、船舶等型号单位横纵向课题20余项。

目前已出版专著4部,其中中文专著2部,英文专著节选2部;在国内外著名期刊如《Computer Methods in Applied Mechanics and Engineering》,《Mechanical Systems and Signal Processing》,《International Journal of Mechanical Sciences》,《Structural Control and Health Monitoring》,《Structural and Multidisciplinary Optimization》,《Journal of Sound and Vibration》等发表和录用论文100余篇,其中一作/通讯SCI论文收录65篇,SCI他引1200余次,5篇先后入选ESI高被引(包括一篇ESI热点论文),英文综述论文1篇,受权发明专利30项,获得软件著作权8项。研究成果得到了同行的普遍认可,2022年荣获**技术发明三等奖1项。

主要学术兼职:

学术组织兼职:

[1]International Institute of Acoustics and Vibration (IIAV)会员(2022)

[2]中国运筹学会会员(2022)

[3]中国汽车工程学会会员(2022)

[4]中国运筹学会智能工业数据解析与优化专业委员会理事(2022)

[5]International Society for Structural and Multidisciplinary Optimization (ISSMO)会员(2019)

[6]中国随机振动工程学会青年委员(2018)

[7]中国力学学会会员(2016)

学术期刊任职:

[1]SCI Q1区MECHANICS和ENGINEERING, MULTIDISCIPLINARY领域著名期刊《Structural and Multidisciplinary Optimization》编委(2022)

[2]SCI Q2区ENGINEERING, CIVIL领域期刊《Structures》Associate Editor(2022)

[3]SCI Q2区ENGINEERING, MULTIDISCIPLINARY和PHYSICS, APPLIED领域期刊《Applied Sciences-Basel》编委(2022)

[4]SCI MECHANICS和ACOUSTICS领域期刊《International Journal of Acoustics and Vibration》Associate Editor(2022)

[5]SCI Q2区ENGINEERING, MULTIDISCIPLINARY和PHYSICS, APPLIED领域期刊《Applied Sciences-Basel》专刊客座主编(2021)

[6]SCI MECHANICS和ENGINEERING, MECHANICAL领域期刊《Journal of Vibration Engineering & Technologies》Associate Editor(2021)

[7]国际机械工程领域期刊《Journal of Modern Industry and Manufacturing》编委(2021)

机构评审专家:

[1]国家自然科学基金委员会项目涵评专家(2022)

[2]浙江省科技专家库专家(2022)

[3]教育部学位办博士研究生学位论文评审专家(2021)

[4]江苏省教育评估中心学位论文评审专家(2021)

[5]广东省基础与应用基础研究基金委员会高层次人才项目评审专家(2021)

主要荣誉称号:

[1]欧盟地平线2020计划玛丽居里学者称号(2021)

[2]第四批北京航空航天大学青年拔尖人才称号(2017)

[3]首批北京航空航天大学卓百博士后称号(2015)

代表性工作:

专著:

[1]王晓军,王磊,李云龙,邱志平.飞行器复合材料结构非概率可靠性优化设计.北京:科学出版社, 2020年10月.

[2]王晓军,王磊,邱志平.结构可靠性分析与优化设计的非概率集合理论.北京:科学出版社, 2016年3月. (ISBN 978-7-03-047167-3)

综述论文:

[1]Wang L, Liu Y R, Xu H Y. Review: Recent Developments in the Dynamic Load Identification for Aerospace Vehicles Considering Multi-source Uncertainties.Transactions of Nanjing University of Aeronautics & Astronautics, 2021, 38(2): 271-287.

30篇代表性一作/通讯SCI论文(2019-今):

[1]Wang L, Li Z S, Gu K X. An Interval-oriented Dynamic Robust Topology Optimization (DRTO) Approach for Continuum Structures Based on the Parametric Level-set Method (PLSM) and the Equivalent Static Loads Method (ESLM).Structural and Multidisciplinary Optimization, 2022. (SCI)

[2]Wang L, Li Z S, Ni B W, Wang X J, Chen W P. A Robust Topology Optimization Method Considering Bounded Field Parameters with Uncertainties Based on the Variable Time Step Parametric Level-Set Method.Applied Mathematical Modelling, 2022, 107: 441-463. (SCI, https://doi.org/10.1016/j.apm.2022.03.008)

[3]Wang L, Zhao X Y, Liu D L. Size-Controlled Cross-Scale Robust Topology Optimization Based on Adaptive Subinterval Dimension-Wise Method Considering Interval Uncertainties.Engineering with Computers,2022. (SCI,https://doi.org/10.1007/s00366-022-01615-8)

[4]Wang L, Liu Y R, Wang X J, Qiu Z P. Convexity-oriented Reliability-based Topology Optimization (CRBTO) in the Time Domain Using the Equivalent Static Loads Method.Aerospace Science and Technology, 2022, 123: 107490. (SCI)

[5]Wang L, Liu Y R, Li M. Time-dependent Reliability-based Optimization for Structural-topological Configuration Design under Convex-bounded Uncertain Modeling.Reliability Engineering and System Safety, 2022, 221: 108361. (SCI)

[6]Wang L, Zhao X Y, Wu Z M, Chen W P. Evidence Theory-based Reliability Optimization for Cross-scale Topological Structures with Global Stress, Local Displacement and Micro Manufacturing Constraints.Structural and Multidisciplinary Optimization, 2022, 65(1): 23. (2022.1.1 WOS: 000735433800002)

[7]Wang L, Liu Y R, Liu D L, Wu Z M. A Novel Dynamic Reliability-based Topology Optimization (DRBTO) Framework for Continuum Structures via Interval-process Collocation and the First-passage Theories.Computer Methods in Applied Mechanics and Engineering, 2021, 386: 114107. (2021.12.1, WOS:000702661100001)

[8]Wang L, Li Z S, Ni B W, Gu K X. Non-probabilistic Reliability-based Topology Optimization (NRBTO) Scheme for Continuum Structures Based on the Parameterized Level-Set method and Interval Mathematics.Computer Methods in Applied Mechanics and Engineering, 2021, 373: 113477. (2021.1.1, WOS:000600287600004)

[9]Wang L, Liu J X, Yang C, Wu D. A Novel Interval Dynamic Reliability Computation Approach for the Risk Evaluation of Vibration Active Control Systems based on PID Controllers.Applied Mathematical Modelling, 2021, 92: 422-446. (2021.4.1, WOS:000617138700008)

[10]Wang L, Zhao X Y, Liu D L, Chen X. Uncertainty-oriented Double-scale Topology Optimization with Macroreliability Limitation and Microfanufacturing Control.International Journal for Numerical Methods in Engineering, 2021, 122(9): 2254-2286. (2021.5.15, WOS:000611794700001)

[11]Wang L, Liu Y R, Gu K X, Wu T. A Radial Basis Function Artificial Neural Network (RBF ANN) Based Method for Uncertain Distributed Force Reconstruction Considering Signal Noises and Material Dispersion.Computer Methods in Applied Mechanics and Engineering, 2020, 364: 112954. (2020.6.1,WOS:000527574600014)

[12]Wang L, Liu J X, Li Y L. The Optimal Controller Design Framework for PID-based Vibration Active Control Systems via Non-probabilistic Time-dependent Reliability measure.ISA Transactions, 2020, 105: 129-145. (2020.10.1,WOS:000579489500011)

[13]Wang L, Liu Y R. A Novel Method of Distributed Dynamic Load Identification for Aircraft Structure Considering Multi-source Uncertainties.Structural and Multidisciplinary Optimization, 2020, 61: 1929-1952. (2020.10.1,WOS:000515700400002)

[14]Wang L, Xiong C, Shi Q H. An Adaptive Collocation Method for Structural Fuzzy Uncertainty Analysis.Engineering Computations, 2020, 37(9): 2983-2998. (2020.10.27, WOS:000529547900001)

[15]Wang L, Wang X J, Li Y L, Hu J X. A Non-probabilistic Time-variant Reliable Control Method for Structural Vibration Suppression Problems with Interval Uncertainties.Mechanical Systems and Signal Processing, 2019, 115: 301-322. (2019.1.15,WOS:000447085500020)

[16]Wang L, Xia H J, Zhang X Y, Lv Z. Non-probabilistic Reliability-based Topology Optimization of Continuum Structures Considering Local Stiffness and Strength Failure.Computer Methods in Applied Mechanics and Engineering, 2019, 346: 788-809. (2019.4.1,WOS:000456713400035)

[17]Wang L, Liu D L, Yang Y W, Hu J X. Novel Methodology of Non-probabilistic Reliability-based Topology Optimization (NRBTO) for Multi-material Layout Design via Interval and Convex Mixed Uncertainties.Computer Methods in Applied Mechanics and Engineering, 2019, 346: 550-573. (2019.4.1,WOS:000456713400025)

[18]Wang L, Liu Y R, Liu Y S. An Inverse Method for Distributed Dynamic Load Identification of Structures with Interval Uncertainties.Advances in Engineering Software, 2019, 131: 77-89. (2019.5.1,WOS:000462766100007)

[19]Wang L, Xiong C, Wang X J, Liu G H, Shi Q H. Sequential Optimization and Fuzzy Reliability Analysis for Multidisciplinary Systems.Structural and Multidisciplinary Optimization, 2019, 60(3): 1079-1095. (2019.9.1,WOS:000480601400013)

[20]Wang L, Liang J X, Zhang Z X, Yang Y W. Nonprobabilistic Reliability Oriented Topological Optimization for Multi-material Heat Transfer Structures with Interval Uncertainties.Structural and Multidisciplinary Optimization, 2019, 59(5): 1599-1620. (2019.5.1, WOS:000464743400012)

[21]Wang L, Xiong C. A Novel Methodology of Sequential Optimization and Non-probabilistic Time-dependent Reliability Analysis for Multidisciplinary Systems.Aerospace Science and Technology, 2019, 94: 105389. (2019.11.1,WOS:000494053900025)

[22]Wang L, Ren Q, Ma Y J, Wu D. Optimal Maintenance Design-oriented Nonprobabilistic Reliability Methodology for Existing Structures under Static and Dynamic Mixed Uncertainties.IEEE Transactions on Reliability, 2019, 68(2): 496-513. (2019.6.1, WOS:000470826100008)

[23]Wang L, Liang J X, Chen W P, Qiu Z P. A Nonprobabilistic Reliability-based Topology Optimization Method of Compliant Mechanisms with Interval Uncertainties.International Journal for Numerical Methods in Engineering, 2019, 119(13): 1419-1438. (2019.9.28,WOS:000482443300005)

[24]Wang L, Liang J X, Liu D L, Chen W P. A Novel Reliability-based Topology Optimization Framework for the Concurrent Design of Solid and Truss-like Material Structures with Unknown-but-bounded Uncertainties.International Journal for Numerical Methods in Engineering, 2019, 119(4): 239-260. (2019.7.27,WOS:000471927200001)

[25]Liu Y R,Wang L#, Li M, Wu Z M. A Distributed Dynamic Load Identification Method Based on the Hierarchical-Clustering-Oriented Radial Basis Function Framework Using Acceleration Signals under Convex-Fuzzy Hybrid Uncertainties.Mechanical Systems and Signal Processing, 2022, 172: 108935. (SCI, https://doi.org/10.1016/j.ymssp.2022.108935)

[26]Liu Y R,Wang L#, Gu K X, Li Min. Artificial Neural Network (ANN) - Bayesian Probability Framework (BPF) Based Method of Dynamic Force Reconstruction under Multi-source Uncertainties.Knowledge-Based Systems, 2022, 237: 107796. (SCI, https://doi.org/10.1016/j.knosys.2021.107796)

[27]Liu Y R,Wang L#, Li M. Kalman Filter (KF)-Random Forest (RF) Based Method of Dynamic Load Identification for Structures with Interval Uncertainties.Structural Control and Health Monitoring, 2022, e2935. (SCI,2022.2.11, WOS: 000751376700001)

[28]Liu Y R,Wang L#, Gu K X. A Support Vector Regression (SVR)-Based Method for Dynamic Load Identification Using Heterogeneous Responses under Interval Uncertainties.Applied Soft Computing, 2021, 110: 107599. (2021.10.1, WOS:000711952900014)

[29]Liu Y R,Wang L#, Qiu Z P, Chen X. A Dynamic Force Reconstruction Method based on Modified Kalman Filter Using Acceleration Responses under Multi-source Uncertain Samples.Mechanical Systems and Signal Processing, 2021, 159: 107761. (2021.10.1, WOS:000646945000009)

[30]Xiong C,Wang L#, Liu G H, Shi Q H. An Iterative Dimension-by-dimension Method for Structural Interval Response Prediction with Multidimensional Uncertain Variables.Aerospace Science and Technology, 2019, 86: 572-581. (2019.3.1,WOS:000463305200046)

联系方式:

Tel: 13466660129(微信同号);010-82317867

Email:leiwang_beijing@buaa.edu.cn; ntucee.wanglei@gmail.com

办公地址:北京航空航天大学新主楼C座917室

通信地址:北京市海淀区学院路37号北京航空航天大学固体力学研究所

邮编:100083

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